Category: Intel

The Lenovo ARM Powered tablet is $500 and the optional Intel laptop dock part is something like $800. Lenovo had shown this last year with a previous Snapdragon and Thunderbird's customized Ubuntu Linux on the ARM part which I filmed then, but now they updated the ARM part to Android 2.2 on Qualcomm's 8X50A is 1.3ghz 45nm processor (which they might upgrade to Qualcomm's dual-core processor by the time this tablet comes out with Android Honeycomb), they say it'll upgrade to Honeycomb, and it uses Lenovo's LeAndroid UI layer (similar to LePhone UI that is available on the Chinese market, notice Paul Otelinni at Lenovo's Aquanox party in the background of my last year's LePhone video) as default home replacement.

TriCaster TCXD850 is a 26'000€ real-time video editing Windows box with some Intel processors inside and a lot of connectors. Basically it allows for HD live tv editing in a box. But it's really expensive and I wonder if a regular ARM Powered or Intel Powered laptop with the right software couldn't do most of the same basic multi-camera live editing kind of things.

While this specific ARM Cortex A8 implementation performs great on integers, power consumption, heat dissipation, price, floating-point performance still needs some improvement with ARM Cortex designs to come. Consider also that Ubuntu 9.04 used in this test is only the first implementation of Ubuntu for ARM Cortex and that Ubuntu 10.4 which is imminently going to be released will significantly improve ARM performance of those benchmarks.

The ARM Cortex-A8 sample that we tested in the form of the Freescale i.MX515 lived in an ecosystem that was not competitive with the x86 rivals in this comparison. The video subsystem is very limited. Memory support is a very slow 32-bit, DDR2-200MHz.

I guess it's not yet possible for Van Smith in this test to make an apples to apples comparison as the current ARM Cortex A8 are still oriented at Smart Phones and thin and light Tablets rather than full SmartBooks for full desktop-like performance requirements of the more desktop-performance oriented next generation ARM Cortex designs.

The goal for ARM when reaching the markets of Laptop and Desktop form factors is to reach the level of performance required to run full high resolution Web Browsers at full speed, where the OS with the browser boots instantly, with fast enough RAM where unlimited tabs open instantly, where hardware acceleration of embedded videos functions smoothly and where even the Native Client and 3D features run fully within the ARM Powered Web Browser. Once that level of performance is reached, further performance improvements will be less important than lowering the power consumption and lowering the cost of the next processors. Once everything most users need to have processed on their devices seem to run instantly, reaching the instant browser performance level, why would anyone want to increase the performance of client device oriented processors further?

usmart Sun Power Technology Limited is showing what they say is the world's smallest x86 computer, comes with a 4.8" screen, Intel Atom 1.60ghz processor, 512mb RAM, USB port, WiFi, MicroSD slot, removable battery that lasts 2 hours of Windows XP usage. It should cost below $500 if it becomes available. This device when I touched it for a few seconds it seems to be very hot and it was actually shaking because of the small fans that are inside. Though this is a hand made early prototype.